UNIPROT:P06889 - FACTA Search

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Query: UNIPROT:P06889 (Mol)
630,302 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The myoglobin-like haemoprotein leghaemoglobin (Lb I) from lupine root nodules has a great affinity to molecular oxygen and seems to be involved in O2-transport. Some ligands of low molecular weight are supposed to affect the haemoglobin (Hb) and myoglobin (Mo) function in O2-transport. To investigate this possibility for lupine Lb I, the affinity of this protein to cyanide (CN-), azide (N3-), fluoride (F-), thiocyanate (NCS-), imidazole (Im), nicotinic acid (NA), acetic acid has been investigated, using: 0.05 M MES, pH 5.2-6.5; 0.1 M Na-phosphate in 0.05 M Tris-buffer, pH 6.5-9.0. The affinity for Lb I to N3-, CN-, F- and NA (the Bohr effect) was found to be pH-dependent. The values of PK ionization for the groups affecting the ligands binding were determined. The positive correlation between the ligand affinity and the ligand power was found. Lb I appears to have the greatest ligand affinity constants when compared with other haemoproteins of this class.
Mol Biol (Mosk)
PMID:[Lupine leghemoglobin affinity to ligands. The effect of pH and buffer nature]. 3 94

The pH-dependence of the reduction rate of ferricytochrome C by intact and chemically modified oxymyoglobins has been studied. The modification was performed with respect to histidine residues and alpha-aminogroup of N-terminal valine. Two histidine residues of myoglobin, His A10 and His GH1, are shown to take part in the realization of the "active" contact between the molecules in the course of the reaction. The deprotonation of the first residue contributes to the acceleration and that of the second to the reduction of the reaction. The found orientation of the Mb molecules in the "active complex" implies that at any orientation of cytochrome C the distance between the haemes of the both molecules should be more than 30 A. This makes highly probable that a structure-dependent mechanism of electron transfer in the system under study can be proposed.
Mol Biol (Mosk)
PMID:[Electron transfer to hemoproteins. II. pH-dependence of the reduction rate of ferricytochrome c by oxymyoglobin]. 3 34

The conformational motilities of three regions of the sperm whale myoglobin molecule and of an isolated peptide of myoglobin have been examined by measuring the equilibrium constant for the native equilibrium nonnative transition. The immunological approach of Furie et al. (Furie, B., Schechter, A.N., Sachs D., and Anfinsen, C.B. (1975), J. Mol. Biol.92, 497-506) was used with convenient modifications. Antibodies specific to the nonnative conformations were used in assaying for competition between the radioactively labeled peptide and native myoglobin. Labeling was by 125I iodination of the peptide or its 3-(4-hydroxyphenyl)propionyl derivative, and separation of the immune complex from the free peptide was either by ammonium sulfate precipitation or by centrifugation of the antibodies immobilized on Agarose beads. For the antigenic regions of the sequence (1-55), the measured conformational equilibrium constant was 840 +/- 200 at 22 degrees C; the value for the C-terminal region (132-153) was 280 +/- 120 at 25 degrees C, while that for the region (66-76) adjacent to the heme group was greater than 2.5 x 10(6). Measurements on the isolated peptide (132-153) indicated that 1% of the molecules adopt native-type folding in aqueous solution at 36 degrees C.
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PMID:Immunological measurements of conformational motility in regions of the myoglobin molecule. 31 22

The complex formed by myoglobin and nicotinic acid exhibits unusual spectral properties. Instead of the usual two bands in the visible region the complex shows four bands assigned to the so called twin hemochromogen. Some attempts were previously made to clarify the nature of the twin hemochromogen, but the interpretation given was somewhat doubtful. We have shown that the combination of two spectral methods, namely magnetic circular dichroism and absorption spectra, give evidence that unusual absorption spectrum of the myoglobin complex with nicotinic acid is not attributed neither to the presence of the other hemochromogen nor to the soft vibrations but is due to the strong splitting of the pure electronic Q00 band into two Qox and Q0y bands. The splitting is caused by the distortion of heme structure by its asymmetrical environment.
Mol Biol (Mosk)
PMID:[Study of the complex of myoglobin with nicotinic acid by the method magnetic circular dichroism. Nature of the double hemochromogen]. 44 Mar 10

The concept of phylogenetic denseness bears critically on the accuracy of evolutionary pathways inferred from experimentally sequenced proteins isolated from extant species. In this paper I develop an objective measure, rho, of denseness to supplement previous intuitive concepts and which permits one to use this concept in comparing the quality of different evolutionary reconstructions. This measure is used to examine several published phylogenetic trees: insulin, alpha-hemoglobin, beta-hemoglobin, myoglobin, cytochrome c, and the parvalbumin family. The paper emphasizes 1) the importance of denseness in accurately estimating the number of nucleotide replacements which separate homologous sequences when this estimation is made by the method of parsimony, 2) the value of this concept in assessing the quality of those estimates, and 3) the use of this concept as a biologically practical heuristic method for identifying poorly studied regions in a phylogenetic tree, whether or not the tree was obtained by the parsimony method.
J Mol Evol 1978 Aug 02
PMID:A measure of the denseness of a phylogenetic network. 69 Oct 73

Absorption and magnetic circular dichroism spectra of non-equilibrium states of myoglobin and its complexes formed by reduction oxidased forms of proteins by thermalysed electrons at 77 degrees K were studied. Mixtures of high spin and low spin ferroforms were observed for nonequilibrium states of myoglobin and its complex with fluorine, the content of the high spin form is larger in the complex. Two intense peaks were found in the alpha-band region of absorption spectra of myoglobin and its spectra with F-, OH- and imidazole. This effect is due to lowering of the active centre's symmetry. Similarity of spectral characteristics of low spin ferroforms of these complexes was explained by the strong influence of distal histidine. The low temperature reduction of azide and cyanide complexes of myoglobin led to formation of nonequilibrium low spin ferroforms whose spectra demonstrate the presence of N3- and CN- in heme iron's coordination sphere. The temperature relaxation of all nonequilibrium systems were investigated.
Mol Biol (Mosk)
PMID:[Absorption and magnetic circular dichroism spectra of nonequilibrium states of hemoproteins. II. Myoglobin and its complexes]. 74

X-ray scattering curves for the sperm whale myoglobin molecule and a model which includes only the helical regions of the polypeptide chain are calculated. The portion of the scattering curve associated with the packing of the helices inside the protein globule is analyzed. The model of the myoglobin molecule is used to investigate the sensitivity of the scattering curve to changes in the mutual packing of the helical regions.
Mol Biol 1975 Jan
PMID:Diffuse scattering of x rays by polypeptides and proteins in solution. III. Analysis of scattering curve of sperm whale myoglobin. 112 10

Red deer myoglobin has been fragmented by restricted tryptic digestion and by treatment with cyanogen bromide. The fragments have been separated by gel permeation. The core peptide derived from cyanogen bromide cleavage have been further digested with trypsin and the resulting peptides have been separated on Dowex 1X2. All fragments have been characterized by their amino acid composition, by determination of their N-terminal sequence using automatic Edman degradation and of their C-terminal sequence following the kinetics of amino acid cleavage by carboxypeptidases A and B. The complete sequence has been found to be identical with the already known sequence of sheep myoglobin except for residue 145 which is Gln in red deer globin and Glu in sheep globin. Reinvestigation of the corresponding sequence in sheep globin has shown that residue 145 of sheep globin is also Gln.
J Mol Evol 1975 Sep 08
PMID:The amino acid sequence of myoglobin from skeletal muscles of red deer (Cervus elaphus). 120 28

An assumption is made on the substantial role of local hydrogen bonds in formation of irregular regions of globular protein polypeptide chains. The statistics of the amino acid composition of irregular regions is examined from this point of view. A statistical analysis of side group-backbone hydrogen bonds is carried out for three proteins: alpha-chy-motrypsin, lysozyme and myoglobin. It is shown that short side groups participate in formation of local hydrogen bonds more often than long ones. Conformations of amino acid residues in the first and the last positions are studied in beta-bends of 9 proteins. It is shown that over 70% of these residues are in conformations corresponding to the formation of local hydrogen bonds of three types: backbone-backbone, side groupbackbone, backbone-water molecule-backbone. Thus, the participation of the cooperative hydrogen-bonding network in stabilization of beta-bends is demonstrated.
Mol Biol (Mosk)
PMID:[The role of local hydrogen bonds in formation of irregular regions of globular protein polypeptide chains]. 121 11

The hemoproteins (sperm whale myoglobin, hemoglobin from larvae of Chironomus thummi thummi, bovine hemoglobin) were studied in viscous solvents (saturated sucrose solution, glycerol and water-glycerol solutions) in the temperature range +50 divided by -100 degrees C. At low temperatures the three-phase kinetics of Mb recombination with CO was observed. The velocities of two "fast" reactions did not depend on ligand concentration. This fact indicates that they are due to a so called cage-effect. The formation of the cage is caused apparently by a local change of the solvent state in the heme region. To explain the biphasic "cage" kinetics it has been assumed that during some time after photodissociation myoglobin remains in the "ligand-bound" conformation and reacts with CO faster than the "normal" myoglobin. For other hemoproteins the "cage-effect" was not observed. For all the studied hemoproteins the quantum yield of photodissociation decreased as the temperature decreased. The decrease of quantum yield can be described by the Arrenius law. The rates of the decrease of quantum yield differ for different proteins.
Mol Biol (Mosk)
PMID:[The flash-photolysis study of recombination of hemoproteins with carbon monoxide at low temperatures]. 121 83

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